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TreeModelEvent.javaAPI DocJava SE 5 API12870Fri Aug 26 14:58:02 BST 2005javax.swing.event

TreeModelEvent

public class TreeModelEvent extends EventObject
Encapsulates information describing changes to a tree model, and used to notify tree model listeners of the change. For more information and examples see How to Write a Tree Model Listener, a section in The Java Tutorial.

Warning: Serialized objects of this class will not be compatible with future Swing releases. The current serialization support is appropriate for short term storage or RMI between applications running the same version of Swing. As of 1.4, support for long term storage of all JavaBeansTM has been added to the java.beans package. Please see {@link java.beans.XMLEncoder}.

version
1.33 12/19/03
author
Rob Davis
author
Ray Ryan
author
Scott Violet

Fields Summary
protected TreePath
path
Path to the parent of the nodes that have changed.
protected int[]
childIndices
Indices identifying the position of where the children were.
protected Object[]
children
Children that have been removed.
Constructors Summary
public TreeModelEvent(Object source, Object[] path, int[] childIndices, Object[] children)
Used to create an event when nodes have been changed, inserted, or removed, identifying the path to the parent of the modified items as an array of Objects. All of the modified objects are siblings which are direct descendents (not grandchildren) of the specified parent. The positions at which the inserts, deletes, or changes occurred are specified by an array of int. The indexes in that array must be in order, from lowest to highest.

For changes, the indexes in the model correspond exactly to the indexes of items currently displayed in the UI. As a result, it is not really critical if the indexes are not in their exact order. But after multiple inserts or deletes, the items currently in the UI no longer correspond to the items in the model. It is therefore critical to specify the indexes properly for inserts and deletes.

For inserts, the indexes represent the final state of the tree, after the inserts have occurred. Since the indexes must be specified in order, the most natural processing methodology is to do the inserts starting at the lowest index and working towards the highest. Accumulate a Vector of Integer objects that specify the insert-locations as you go, then convert the Vector to an array of int to create the event. When the postition-index equals zero, the node is inserted at the beginning of the list. When the position index equals the size of the list, the node is "inserted" at (appended to) the end of the list.

For deletes, the indexes represent the initial state of the tree, before the deletes have occurred. Since the indexes must be specified in order, the most natural processing methodology is to use a delete-counter. Start by initializing the counter to zero and start work through the list from lowest to higest. Every time you do a delete, add the current value of the delete-counter to the index-position where the delete occurred, and append the result to a Vector of delete-locations, using addElement(). Then increment the delete-counter. The index positions stored in the Vector therefore reflect the effects of all previous deletes, so they represent each object's position in the initial tree. (You could also start at the highest index and working back towards the lowest, accumulating a Vector of delete-locations as you go using the insertElementAt(Integer, 0).) However you produce the Vector of initial-positions, you then need to convert the Vector of Integer objects to an array of int to create the event.

Notes:

  • Like the insertNodeInto method in the DefaultTreeModel class, insertElementAt appends to the Vector when the index matches the size of the vector. So you can use insertElementAt(Integer, 0) even when the vector is empty.
      To create a node changed event for the root node, specify the parent and the child indices as null.

    param
    source the Object responsible for generating the event (typically the creator of the event object passes this for its value)
    param
    path an array of Object identifying the path to the parent of the modified item(s), where the first element of the array is the Object stored at the root node and the last element is the Object stored at the parent node
    param
    childIndices an array of int that specifies the index values of the removed items. The indices must be in sorted order, from lowest to highest
    param
    children an array of Object containing the inserted, removed, or changed objects
    see
    TreePath

    	this(source, new TreePath(path), childIndices, children);
        
public TreeModelEvent(Object source, TreePath path, int[] childIndices, Object[] children)
Used to create an event when nodes have been changed, inserted, or removed, identifying the path to the parent of the modified items as a TreePath object. For more information on how to specify the indexes and objects, see TreeModelEvent(Object,Object[],int[],Object[]).

param
source the Object responsible for generating the event (typically the creator of the event object passes this for its value)
param
path a TreePath object that identifies the path to the parent of the modified item(s)
param
childIndices an array of int that specifies the index values of the modified items
param
children an array of Object containing the inserted, removed, or changed objects
see
#TreeModelEvent(Object,Object[],int[],Object[])

	super(source);
	this.path = path;
	this.childIndices = childIndices;
	this.children = children;
    
public TreeModelEvent(Object source, Object[] path)
Used to create an event when the node structure has changed in some way, identifying the path to the root of a modified subtree as an array of Objects. A structure change event might involve nodes swapping position, for example, or it might encapsulate multiple inserts and deletes in the subtree stemming from the node, where the changes may have taken place at different levels of the subtree.
Note:
JTree collapses all nodes under the specified node, so that only its immediate children are visible.

param
source the Object responsible for generating the event (typically the creator of the event object passes this for its value)
param
path an array of Object identifying the path to the root of the modified subtree, where the first element of the array is the object stored at the root node and the last element is the object stored at the changed node
see
TreePath

	this(source, new TreePath(path));
    
public TreeModelEvent(Object source, TreePath path)
Used to create an event when the node structure has changed in some way, identifying the path to the root of the modified subtree as a TreePath object. For more information on this event specification, see TreeModelEvent(Object,Object[]).

param
source the Object responsible for generating the event (typically the creator of the event object passes this for its value)
param
path a TreePath object that identifies the path to the change. In the DefaultTreeModel, this object contains an array of user-data objects, but a subclass of TreePath could use some totally different mechanism -- for example, a node ID number
see
#TreeModelEvent(Object,Object[])

	super(source);
	this.path = path;
	this.childIndices = new int[0];
    
Methods Summary
public int[]getChildIndices()
Returns the values of the child indexes. If this is a removal event the indexes point to locations in the initial list where items were removed. If it is an insert, the indices point to locations in the final list where the items were added. For node changes, the indices point to the locations of the modified nodes.

return
an array of int containing index locations for the children specified by the event

	if(childIndices != null) {
	    int            cCount = childIndices.length;
	    int[]          retArray = new int[cCount];

	    System.arraycopy(childIndices, 0, retArray, 0, cCount);
	    return retArray;
	}
	return null;
    
public java.lang.Object[]getChildren()
Returns the objects that are children of the node identified by getPath at the locations specified by getChildIndices. If this is a removal event the returned objects are no longer children of the parent node.

return
an array of Object containing the children specified by the event
see
#getPath
see
#getChildIndices

	if(children != null) {
	    int            cCount = children.length;
	    Object[]       retChildren = new Object[cCount];

	    System.arraycopy(children, 0, retChildren, 0, cCount);
	    return retChildren;
	}
	return null;
    
public java.lang.Object[]getPath()
Convenience method to get the array of objects from the TreePath instance that this event wraps.

return
an array of Objects, where the first Object is the one stored at the root and the last object is the one stored at the node identified by the path

	if(path != null)
	    return path.getPath();
	return null;
    
public javax.swing.tree.TreePathgetTreePath()
For all events, except treeStructureChanged, returns the parent of the changed nodes. For treeStructureChanged events, returns the ancestor of the structure that has changed. This and getChildIndices are used to get a list of the effected nodes.

The one exception to this is a treeNodesChanged event that is to identify the root, in which case this will return the root and getChildIndices will return null.

return
the TreePath used in identifying the changed nodes.
see
TreePath#getLastPathComponent

 return path; 
public java.lang.StringtoString()
Returns a string that displays and identifies this object's properties.

return
a String representation of this object

	StringBuffer   retBuffer = new StringBuffer();

	retBuffer.append(getClass().getName() + " " +
			 Integer.toString(hashCode()));
	if(path != null)
	    retBuffer.append(" path " + path);
	if(childIndices != null) {
	    retBuffer.append(" indices [ ");
	    for(int counter = 0; counter < childIndices.length; counter++)
		retBuffer.append(Integer.toString(childIndices[counter])+ " ");
	    retBuffer.append("]");
	}
	if(children != null) {
	    retBuffer.append(" children [ ");
	    for(int counter = 0; counter < children.length; counter++)
		retBuffer.append(children[counter] + " ");
	    retBuffer.append("]");
	}
	return retBuffer.toString();